Machine tool



y 1937- K. F. GALLIMORE El AL 2,081,145

MACHINE TOOL Filed Dec. 16, 1935 f e Sheets-Sheet l 7 0277 Haw/more Gamer A! Saba/gar y 1937. K. F. GALLIMORE E! AL' 2,081,145 7 MACHINE TOOL Filed Dec. 16, 1935 6 Sheets-Sheet 2 v TNvENToQs f e/f/v FGa/l/more Gav/7W H Sam/r52) May 25, 1937.

K. F. GALLIMORE ET AL MACHINE TOOL Filed Dec. 16, 1935 6 Sheets-Sheet 3 EN vamo qg GOV/0770 G r/7762 Schwaer w @Muv is (A OKQ -Xs May 25,- 1937.

K. GALLIMORE El Al- MACHINE TOOL w Q M o 3m n Q a m m k @ZW II I 8 R Nwm T v y 1937. K. F. GALLIMORE ET AL 2,081,145

I MACHINE T061. 7

Filed Dec. 16, 1955 1 Q 6 SheetsSheet 5 norgrgaxs y 1937. K. F. ALUMORE ET Al. 2,081,145

MACHINE TOOL Filed Dec. 16, 1935 6 Sheets-Sheet 6 NVENTOQS 712w; Few/more Gamer H Schurger 654% M G" *W (flTTOQNjXS Patented May 25, 1937 PATENT OFFICE MACHINE TOOL Keith F. Gallimore and Garner H. Schurger, Fond du Lac, Wis, assignors to Giddings & Lewis Machine Tool 00., Fond du Lac, Wis., a corporation of Wisconsin Application December '16, 1935, Serial No. 54,624

24 Claims.

The present invention relates to improvements in machine tools, and has particular reference to a new and improved spindle headstock adapted for use especially in machines commonly known as horizontal boring, drilling and milling machines.

Spindle headstocks of the foregoing character ordinarily include a rotatable and axially mov able tool spindle, means for rotating the spindle at any one of a plurality of selective speeds, and power means for adjusting or feeding the spindle axially at any one of a plurality of selective speeds in timed relation to the'rotation. The present invention has for certain of its objects the provision of novel axial feeding means which is not subject to substantial error by reason of excessive backlash or manufacturing inaccuracies, but is accurate and reliable in operation, which in particular is effective throughout the normal range of operation to maintain with a high degree of constancy and precision the predetermined timed relation between the rotation and the axial feed of the spindle, and which in gen drilling, not requiring a high degree of accuracy in the timed relation between the rotation and.

the axial feed of the spindle, thereby permitting use of the first mentioned drive only when required by the character of the work so as to reduce the wear of the precision parts and preserve their accuracy over. a long period of time.

A further object resides in the provision of' novel interlock means for preventing the simultaneous'connection of both feed drives.

Other detailed objects reside in the provision of newand improved means including a half nut for connecting the precision feed drive to the Another object is to provide a double set spindie of novel construction.

Further objects and advantages will become apparent as the description proceeds.

In the accompanying drawings, Figure 1 is a fragmentary longitudinal vertical sectional view of a headstock embodying the features of our invention.

Fig. 2 is a transverse sectional view of the headstock taken substantially along line 22 of Fig. 1.

Fig. 3 is an elevational view of the inside of the headstock front cover plate, and the feed drive gearing mounted thereon.

Fig. 4 is a fragmentary vertical sectional view of the gearing shown in Fig. 3 and taken substantially along line 44 of Fig. 2.

Fig. 5 is a transverse vertical sectional view of ,the headstock taken substantially along line 5-5 of Fig. 1.

Fig. 6 is a fragmentary vertical sectional view of the right end of the headstock and taken sub- Fig. 10 is a plan of the construction shown in Fig.9.

Fig. 11 is a transverse vertical sectional view of the headstock taken substantially along line ll-H of Figs. 7 and 12. I

Fig. 12 is a horizontal sectional view taken substantially along line l2l2 of Fig. 11.

Fig.- -13 is a transverse sectional view taken along line [3-43 -of Fig. 12.

Fig. 14 is a transverse sectional view taken along line l4l4 of Fig. 12.

Fig. 15 is a view on an enlarged scale of a dial for indicating the axial position of the spindle.

Referring more particularly to the drawings, the invention resides in a new and improved spindle headstock of' the general character disclosed in the patent to Gallimore No. 1,858,491 and adapted particularly for use in horizontal boring, drilling and milling machines.

The headstock (see Figs. 1 and 2) comprises a closed casing l adapted to be mounted on a suitable support, such, for example, as a vertical column (not shown). Mounted for rotation in the casing land adapted to be projected axially from one end thereof are a main spindle 2 and a relatively light parallel auxiliary spindle 3.

Each of these spindles is shown with the usual and 6. One end of the sleeve 4 projects to the exterior of the casing and is adapted to support a suitable cutting tool (not shown). The right end of the spindle 2 extends freely into a reciprocable ram I in the form of an elongated cylindrical sleeve, and is rotatably connected tothe latter for axial movement therewith. The ram 1 is slidably and non-rotatably supported in a plurality of longitudinally spaced bearing sleeves 8 which are axially aligned with the sleeve 4, and which are formed in an elongated guide casing 9 secured to the right end of the casing and constituting a continuation thereof. An elongated cylindrical guard'lo mounted on the right end wall of the casing between the bearing 6 and the adjacent bearing sleeve 8 in the casing 9substantially encloses the inner end of the ram 1.

The auxiliary spindle 3 at its left end also extends through and is longitudinally splined for axial movement in a sleeve l| suitably journaled in the casing The other or inner end of the spindle 3 is reduced in size, and extends freely through and is journaled in an elongated guide sleeve l2 which constitutes a feed ram. The latter is slidably mounted in a fixed elongated bearing l3 in the casing l, and in. retracted position extends partially into the inner end of the casing 9.

The headstock is a self-contained unit including speed change means for rotating the spindles 2 and 3 and for feeding them axially. The power inlet comprises a vertical drive shaft |4 adapted to be connected to a suitable source of power' (not shown) and extending 'slidably through the casing 9. A bevel gear l5 rotatably, journaled in the casing 9, is axially splined to the shaft l4, and is adapted to be connected through a speed-change mechanism, providing, for example, thirty-six different speeds, to the auxiliary spindle 3. In its preferred form, the speed-change mechanism comprises a nine speed gearing l6, a two speed gearing I! and a second two speed gearing l8 connected in series. For a more detailed understanding of the gearings l6, l1, and I8, reference ,may be had to the aforesaid patent.

The main spindle 2 is adapted. to be driven in constant timed relation tothe auxiliary spindle 3, for example, at a ratio of one to four. The

connecting drive comprises a pinion l9 on the auxiliary spindle sleeve meshing with a gear 20 rotatable on the main spindle sleeve 4, and adapted to be connected thereto by a spline clutch member 2|. Adjustable means is provided for feeding either of the spindles 2 and 3-axially in synchronism with the rotation. To this end, a drive pinion 2| issecured tothe inner end of the spindle sleeve II, and meshes with a power inlet gear 22 (see Fig. 3) of 'a' gear shift feed mechanism comprising a nine feed unit 23 having inlet and outlet shafts 24 and 25. The outlet shaft 25 is connected to a worm shaft 26 (see Fig. 4) through a two speed gearing 2'! terminating in a shaft 28, a reversing gearing 29 to a shaft 30, and a,

two speed gearing 3|, connected in series to provide in the present instance thirty-six different selective rates of feed relative to the spindle rotation. The gearings 23, 21, 29, and 3| are suitably mounted on the inside of a cover plate 32 for thehousing Secured to the shaft 26 is a worm 33 meshing with a worm wheel 34 which is adapted to be connected through a master clutch 35 inthe cover 32 to a shaft 36. A bevel gear 3'! on the shaft 36 meshes with a bevel gear 38 on the horizontal shaft 39 (see Fig. 8) adapted to be connected selectively to the spindle feed rams 'I and l2.

Axially aligned and positioned end to end with the shaft 39 is a shaft 40 which extends into the casing 9 along the ram 1.

The right end of the shaft' 49 is provided with a-bevel gear 4| in a housing 42 on the front of the casing 9 (see Figs. 8 and 11). The gear 4| meshes with a bevel gear 43 on a vertical shaft 44. A pinion 45 on the shaft 44 meshes with a longitudinal gear rack 46 formed along the front side of the ram 1. Splined on the shaft 39 for axial movement into engagement with a clutch element 4'! on the shaft 40 is a clutch sleeve 48. When the clutch sleeve 48 is'in its right end position, the feed drive connection for the main spindle I is completed.

A bevel gear 49 freely rotatable on the shaft 39 meshes with a bevel gear 50 on a stub shaft 5|, and is formed with a clutch element 52 adapted for en agement by the clutch sleeve 48. A pinion 53 (see Fig. 2) on the shaft 5| meshes with a longitudinal gear. rack 54 formed along the un-' derslde of the ram l2. When the clutch sleeve 48 is in its left hand position, the rack drive for the ram 3 will be-connected. When the sleeve 48 is located in intermediate or neutral position neither of the drivesthrough the racks 46 and 54 is connected.

To provide means for shifting the clutch sleeve 48, it is connected to one end of a shifter rod 55 formed in the other end with a transverse notch 56 (see Figs. 9 and 10) A rocker arm 51 fixed on a shaft 58 engages at its free end in the notch 56. The shaft 58 extends slidably and rotatably through a bracket 59 to the front of the casing 9, and is provided at its forward end with a hand lever 60. Projecting upwardly from the hub of the lever 60 into a slot 6| in an overlying plate '62 on. the bracket 59 is a guide pin 63. 6| defines the end positions of the clutch sleeve 48, and has an intermediate transverse portion 64 defining the neutral position of the sleeve.

The rack and gear. feed drive for the spindle 2 just described is therefore selectively available, and as shown comprises thirty-six different feed rates relative to any spindle rotation and is reversible. This drive is suited for a large' number of machine operations, such as inilling, drilling The slotand boring, not requiringaclosely accurate synchronism between the rotation and feed of the spindle 2. However, for certain precision work,

.as in thread cutting, requiring a closely accurate and uniform lead, the rack and gear drive is not (see Figs. 9 and 10). When the lever 50 is in of the present invention therefore resides in the provision of a precision feed drive for the main spindle 2 parallel to and adapted for use interchangeably with the rack and gear drive.

The precision feed drive in its preferred form comprises a lead screw 65 which is connected at one end across the feed gearings 23, 21, 29, and 3| to the shaft 24, and which is adapted to be connected to a nut 56 movable with the spindle ram I. More particularly, a gear 5'! (see Fig. 3) on the shaft 24 meshes with a gear 68 on a parallel shaft 69 connected through a reversing gearing 18 to a shaft II. The gearing I0 comprises two gears 12 and I3 fixed on the shaft 69, a gear It on a back shaft I5 and meshing with the gear I3, a gear 'lfi rotatable on the shaft II and meshing with the gear 12 and formed with an internal gear clutch element TI and a gear I8 axially splined on the shaft H and having aclutch element 19, the gear -|8 being shiftable by means of a hand lever selectively into mesh with the back gear It or into position to connect the clutch elements TI and I9, or into neutral position.

The shaft II (seeFigs. 6 and 7) is coupled to a shaft 8| connectedthrough bevel gears 82 and 83 to a transverse shaft 85 journaled in the casing 53. Pick-off change gearing 85 consisting of four gears in a housing 86 on the front of the casing 9 connects the forward end of the shaft 8% to a parallel shaft 81. The gearing 85 permits a set-up adjustment for changing the rate of feed in relation to the spindle rotation to obtain different leads. To afiord access to the gearing 85, a cover 88 is hinged on the front of the housing 86. Fixed on the shaft Bl is a worm 89 meshing with a worm wheel 90 on the screw 65.

The screw 65 is rotatably journaled in a fixed axial position in the casing 9, and extends parallel to and above the fed ram l. One end of the screw 65 is anchored in an end plate 9| closing the outer end of the casing 9. The nut 65 preferably is a half nut mounted on the ram 1, and

movable into and out of meshing engagement with the screw 55 at points intermediate the ends of the latter.

Preferably, the half nut 56 is mounted for vertical sliding movement in a hollow bracket J 92 (see Figs. 6, 12, and 13) bolted to the top of the ram I. Two spaced support bearings 93 and 94 for the screw 55 are provided in the bracket 92 at opposite sides of the nut 66. The bracket 92 is formed externally in the top and side walls with milled slots constituting a vertical guideway 95. Slidably mounted in the guideway 95 is a two-part yoke 95 having depending front and rear legs 97 disposed in the side wall slots.

'The half nut 66 is mounted between and rigidly connected to the lower ends of,the legs 9?.

To provide means for actuating the half nut 56, toggle links 98 and 99 are pivotally connected respectively to the bracket 92 and the rear yoke arm 97, and at their pivotal juncture are con nected through a link me to a arm IBI splined for axial movement on a rock shaft I82 9|, and the other end is journaled in the casing s and connected through bevel gears W8 and Hit to a hollow stub shaft I85 journaled in a bearing sleeve I95 The shaft I85 slidably receives the shaft 58, and is provided with an end clutch element,|95 adapted for engagement with a clutch element I81 on the hub of the arm 57 rocked to effect movement of the half-nut 66 into and out of eng'agementwith the screw 65. The rocking movement is permitted by a transverse slot portion I88 at the rear end of the slot portion 64. A spring pressed ball I09 in the sleeve Hi5 is adapted for engagement with recesses III) in the shaft I85 to retain the rotary parts yieldably in either position of adjustment. Similarly, a spring pressed ball III in the bracket 59 is adapted to engage selectively in two annular grooves 2 in the shaft 58 to define the two positions of axial adjustment.

It will be seen that when the shaft 58 is shifted rearwardly, the rod 55 and the arm 51 are disengaged and when the nut 55 is engaged with thescrew '55, the pin 63 is located in the slot portion I08 to prevent forward shifting of the shaft. end of the slot 8|, the clutch ||l5II|'| is open and the rod 55 and arm 51 are engaged and the shaft 58 is locked against rearward movement. Hence, the lever 60 constitutes a clutch actuator for both drives, and the slotted plate 52 and pin 63 provide an interlock preventing simultaneous connection of the drives.

Likewise, when the pin "is in either The half nut 65 is subject to disengagement" half nut 86.

Indicator means is provided for facilitating the connecting of the screw 65 and half nut 56 at desired points along the range of travel of the ram I so that the work threads may be picked up, for example, after a rapid return of the spin-- die 2 by means of the rack and pinion drive to original position. The indicator means comprises a dial I I5 (see Figs. 12 and 15) mounted on a shaft II! for rotation against the left face of aforwardly projecting portion of the end plate 9|. Connecting the shaft III to a shaft I I8 within a housing I I9.on the end plate 9| is a train of gears I20, I2I, and I22. The rotatably anchored shaft II'8 extends along the screw 55, and is axially splined through a bevel gear I23 journaled in and movable with the nut bracket 92. A bevel gear I24, also journaled in the bracket 92, meshes Engagement of with the gear I23, and is rigid with a worm wheel I25 meshing with the screw 55.

It will be seen that when thehalf nut 66 is engaged with the screw 65, the dial 6 will remain stationary since the drive of the gear v by the screw will be offset by the roll of the gear along the screw; However, when the half nut 85 is-disengaged, the dial III; will be rotated slowly'in timed relation to the screw. The dial II5 is so geared to the precision screw 55 that it will be rotated one-eighth of a revolution, i. e.,

45 degrees, for two revolutions of the screw and one inch of ram travel. Therefore, the dial H6 is graduated witheight divisions, identified by a numerical scale, and sixteen half divisions. which coact with a suitable indicia or mark on the end plate 9|. As a result, if an even num- (ill ber of screw threads per inch are to be cut, engagement of the half nut 66 can be made on divisions of the dial I I6 representing one-half inch of ram travel, i. e., on any of the sixteen half divisions. Likewise, if an odd number of screw threads per inch are to be cut, the engagement can be made on divisions representingone inch of ram travel or any of the eight dial divisions. If threads having half pitches, such for example as two and one-half threads per inch, are to be cut, engagement can be made only on divisions quartering the dial H6.

The screw is driven continuously from the auxiliary spindle sleeve II, and the connecting feed gear train is so designed that the relative position of rotation of the main spindle 2 and the screw is maintained at all times. Hence, by reason of the dial indicator I I6 and'the separable half nut connection, the spindle 2 can be advanced slowly to take an initial precision cut on the screw thread to be produced, then the nut 66 can be dropped to interrupt the drive, and subsequently the-precision drive can be reestablished by reference to the dial IIB to pick up the thread for another cut. The reversing gearing l0 permits the cutting of right hand and left hand screw threads. The spindle 2 is adjustable axially into different positions relative to the ram I, and is therefore conveniently designated as a double set spindle. The ram 1 has a predetermined range of movement defined by the pins H3 and H4 when the precision screw drive is connected, and by yieldable end teeth on the rack 46, as disclosed in the'patent to Gallimore No. 2,002,480 when the rack and gear drive is connected. A key I26 extends upwardly from the bottom wall of the casing 9 into a longitudinal spline groove I21 in the ram, and serves to hold the latter against rotation in any position of axial feed or adjustment. By advancing the spindle 2 and ram I as a unit in a cutting stroke, the spindle is capable of being projected from the headstock a distance equal to the maximum movement of the ram. If the spindle 2 now is released from the ram to permit return of the latter independently to initial position, and is then reconnected to the left end of the ram, the spindle and ram can again be fed as a unit to impart an additional feed to the spindle beyond the original range. Hence, the spindle has an axial range of movement equal approximately to twice that of the ram, and still a compact head construction .is retained.

In the preferred form, the ram is formed with a bore I28 of uniform diameter opening entirely therethrough and partially closed at the outer end by a cover plate I29. A bearing housing or block I30 is slidably mounted in thebore I28 and is adapted to be secured in any desired position of adjustment therein by means of a clutch hereinafter described. The bearing housing I30 is held against rotation by a key I3I which engages in a longitudinal spline groove formed in and substantially coextensive in length with the bore I28. The right end of'the spindle 2 is reduced in diameter, and extends through an axial bore I32 in the bearing housing I30. Radial and end thrust tapered anti-friction bearings I33 are mounted in opposite ends of the housing I30, and

anchor and rotatably support the spindle 2.

Clutch means is provided for locking the housing I30 to the ram I, and in the present instance comprises a longitudinal internal gear rack I34 formed in the ram and substantially coextensive in length with the bore I28, and a plunger pawl.

I35 having end teeth I35 adapted for engagement with the rack. The pawl I35 is slidably mounted in a transverse guideway I36 formed in the housing I30 and intersecting one side of the bore I32, and is provided with an arcuate relief I31 in one side to provide clearance for the spindle 2. Formed in the side of the pawl I35 opposite the relief I31 is a spline groove I38 terminating in a shoulder I39 at the end adjacent the teeth I35 A key I40 projects from the housing I30 into the groove I38 to prevent the pawl I35 from rotating. A compression spring I M is positioned in the groove I38 and in end abutting engagement with the. shoulder I39 and the key I40, and tends to urge the pawl I35 toward the locking rack I34.

To provide means for actuating the pawl I35, a bell-crank lever I42 is pivotally mounted in a notch I43 formed in the housing I30 and opening to the guideway I36. One arm of the lever I42 extends transversely of the guideway I36, and engages at its end in a notch I44 in one side ofthe pawl I35. The other arm of the lever I42 extends from the notch I 43 into alongitudinal spline groove I45 in a rock shaft I46. Preferably, i

the rock'shaft I46 is rotatably housed in a longitudinal internal groove I41 formed in the ram 1 and substantially coextensive in length therewith, and is journaled at one end in the inner end of the 'ram and at the other end in the cover 3 oscillate the lever I42'downwardly and thereby retract the pawl I35 from the rack I34. Reengagement between the rack I34 and the pawl I35 can be effected by rocking the shaft I46 in the opposite direction. A removable cover I5I normallycloses an opening I52 in the casing end 1 plate 9] through which accessto the lever I48 may be had when desired.

The operation of the machine will be understood from the foregoing description, and briefly reviewed is as follows: For numerous kinds of work, such as drilling, milling and boring, the

rack and gear drive for the ram I may be connected. This drive is reversible, and adapted for operation at any one of thirty-six different speeds relativeto the spindle rotation. It is also adapted for use in rough cutting threads and in cutting threads and other parts having spiral surfaces where the accuracy of the lead is not important.

The rack and gear feed drive is not suitable for extreme precision work. Inaccurate or uneven spacing of the rack teeth or irregularity in form will result in a non-uniform lead. For work of this character, the precision feed drive is connected. The clutch interlock prevents the simultaneous connection of both drives. When taking repeated cuts on a thread, the precision drive may be used on the cutting stroke, and the rack and gear drive may be used to return the ram I.in a rapid traverse to initial position. By reason of the dial II6, the precision drive can be connected to the ram 1 to pick up the thread being out without necessitating the reversal of the machine. Since the rack and gear drive can be used exclusively for numerous cutting'operations and for rapid return in precision operations, the precision drive need be used only where the character of the work requires, and hence is not subjected to unnecessary wear. Its accuracy is therefore maintained over a long period of life.

The double set spindle construction permits a long range of spindle feed for a given size of headstock. The first portion-of the stroke is effected by a joint feed of the spindle 2 and the ram 1. The ram I may then be returned independently to initial position either by power or manually through the use of the master clutch 35. Then, the spindle 2 and the ram I may again be advanced jointly to eifect the final portion of the stroke. When no feed is employed, the ram 1 is lockedinposition by a clamp I53 (see Fig. 11).

In general, the invention provides a high degree of flexibility in use, and yet is simple and compact in construction.

We claim as our invention:

1. A spindle headstock comprising, in combination, a non-rotatable axially reciprocable ram, a spindle journaled in said ram for axial movement therewith, a variable speed drive for rotating said spindle, a variable speed rack and pinion drive for traversing said ram, a variable speed nut and screw drive for traversing said ram, said two last mentioned drives being operable in parallel from the rotative drive, and means for connecting said parallel drives selectively to said ram.

2. A spindle headstock comprising, in-combination, a casing, a non-rotatable ram axially reciprocable in said casing, a spindle journaled in said ram for axial movement therewith, a variable speed drive rotating said spindle, a reversible rack and pinion drive for traversing said ram, a reversible nut and screw drive for traversing said ram, and means for connecting said last two mentioned drives selectively to said ram.

3. A spindle headstock comprising, in combination, acasing, a non-rotatable ram axially reciprocable in said casing, a spindle journaled in said ram for axial movement therewith, drive means for rotating said spindle, and two selectively available independent power drive means for traversing said ram in timed relation to the spindle rotation.

4. A spindle headstock comprising, in combination, a casing, a non-rotatable ram axially reciprocable in said casing, a spindle journaled in said ram for axial movement therewith, drive means for rotating said spindle, a precision feed drive, and a variable-speed drive, said last two mentioned drives being operable from said first mentioned drive means and being adapted for independent connection selectively to said ram for traversing the latter in timed relation to the spindle rotation.

5. A spindle headstock comprising, in combi-- nation, a casing, a ram axially reciprocable in said casing, a spindle journaled in said ram for axial movement therewith and adapted to be projected from said casing, drive means for rotating said spindle, a precision feed drive for traversing said ram in timed relation to the spindle rotation and having a separable connection, a second independent drive for traversing said ram and having a separable connection, and means for closing one or the other of said connections selectively.

6. A spindle headstock comprising, in combination, a casing, a ram axially reciprocable in saidcasing, a spindle journaledin said ram' for axial movement therewith, drive means for rotating said spindle, a nut and screw drive'for traversing said ram in timed relation to the spindle rotation and including a separable connection, and a rack and pinion drive for traversing said ram and including a separable connection, and means for establishing one or the other of said last two mentioned drives through selective actuation of said connections.

7. A spindle headstock comprising, in combination, a non-rotatable axially reciprocable ram, a spindle journaled in said ram for axial movement therewith, means for rotating said spindle, a rack and pinion drive operable from said first mentioned means for traversing said ram, and including means for'interrupting the connection to said ram and for reversing said connection to stop the traverse or effect a traverse in either direction, and a nut and screw drive parallel to in said casing, a ram slidably mounted in said casing for moving said main spindle axially, a variable speed drive means for rotating said auxiliary spindle, a gear drive means including a separable connection between said spindles for rotating the main spindle, a variable-speed reversible rack and pinion drive operatively connected to said auxiliary spindle and adapted for connection to said ram to traverse the latter axially, a reversible screw and nut drive connected to said auxiliary spindle in parallel to said first mentioned drive and adapted for connection to said ram to traverse the latter axially in predetermined adjustable timed relation to the main spindle rotation, and means for cornpleting one or the other of. said drives selectively to said ram.

' 9. A spindle headstock comprising, in combination, a casing, a main spindle and an auxiliary casing for moving said main spindle axially, a

variable speed drive means for rotating said auxiliary spindle, drive means between said spindles for rotating the main spindle, a reversible rack and pinion drive 'operatively connected to said auxiliary spindle and adapted for connection to said ram to traverse the latter axially, a screw and nut drive connected to said auxiliary spindle in parallel to said first mentioned drive and adapted for connection to said ram to traverse the latter axially in predetermined timed relation to the main spindle rotation, and means for connecting one or the other of said drives selectively to said ram.

10. A spindle headstock comprising, in combi: nation, a casing, a feed ram slidably and nonrotatably mounted in said casing, a spindle journaled in said ram for movement therewith, means for rotating said spindle, and a drive for traversing said ram in timedrelation to the spindle rotation, said drive including a, power operable screw element rotatably anchored in said casing and extending longitudinally of said ram, and a nut element mounted on said ram for movement therewith and movable laterally into and out of threaded engagement with said screw element to establish or interrupt the drive connection.

11. A spindle headstock comprising, in combination, a casing, a feed ram mounted in said casing for longitudinal reciprocation, a spin'dle journaled in said ram for movement therewith, means for rotating said spindle, an elongated screw extending parallel to said ram and rotatably anchored in said casing, transmission means including a train of change, gears and a direction reversing and stop mechanism for connecting said screw to said first mentioned means, a nut mounted on said ram for movement therewith and being movable transversely of said ram into and out of driving engagement with said screw,-means'for adjusting said nut into nation, a casing, a feed ram mounted in said casing for longitudinal reciprocation, a spindle journaled in said ram for movement therewith, means for rotating said spindle, an elongated screw extending parallel to said ram and rotatably anchored in said casing, transmission means including a train oichange gears and a direction reversing and stop mechanism for connecting said screw to said first mentioned means, a nut mounted on said ram for movement therewith and being movable transversely of said ram into and out of driving engagement with said screw, and means for adjusting said nut into and out of engagement with said screw.

13. A spindle headstock comprising, in combination, a casing, a feed ram mounted in said casing forlongitudinal reciprocation, a spindle journaled in said ram for movement therewith, means for rotating said spindle, an elongated screw extending parallel to said ram and rotatably anchored in said casing, means including a separable connection for connecting said screw for a reversible drive to said first mentioned means, a nut mounted on said ram for movement therewith and being movable into and out of driving engagement with said screw, and means for adJusting said nut into and-out of, engagement with said screw.

14. A spindle headstock comprising, in combination, a casing, a feed ram mounted in said casing for longitudinal reciprocation, a spindle journaled in said ram for movement therewith, means for rotating said spindle, and a power feed drive for said ram including a screw extending parallel to said ram and rotatablyanchored in said casing, a guide rigidly mounted on said ram for movement therewith, a half nut slidably confined on said guide for movement into and out of driving engagement with said screw, a rock shaft journaled in said casing and extending parallel to said screw, a toggle mechanism splined to said'rock shaft and operatively connected to said half nut, and means for rocking said shaft to effect movement of said half nut into or out of engagement with said screw.

15. A spindle headstock comprising, in combination, a casing, a feed ram mounted in said casing for longitudinal reciprocation, a spindle journaled in said ram for movement therewith, means for rotating said spindle, and a power feed drive for said ram including a screw extending parallel to said ram and rotatably anchored in said casing, a guide rigidly mounted on said ram for movement therewith a nut slidably confined in said guide for movement into and out of driving engagement with said screw, a rock shaft journaled insaid casing and extending parallel to said screw, and means splined to said rock shaft and operable thereby to effect movement of said nut into or out of engagement with said screw.

16. A spindle headstock comprising, in combina tion, a casing, a feed ram mounted in said casing for longitudinal movement, a spindle journaled in said ram for movement therewith, means for rotating said spindle, said ram including screw extending parallel to said ram and rota ably anchored in said casing, a guide rigidly mou ted on said ram for movement therewith, a half nut slidably confined in said guide for movement into and out of driving engagement with said screw, a rock shaft journaled in said casing and extending parallel to said screw, a toggle mechanism splined to said rock shaft and operatively connected to said half nut, means for rocking said shaft to efiect movement of said half nut into or out of engagement i with said screw, and limit stops for actuating said toggle mechanism to drop said half nut out of engagement with said screw at predetermined points in the ram travel.

17. A spindle headstock comprising, in combination, a casing, a feed ram mounted in said casing for longitudinal movement; a spindle journalled in said ram for movement therewith, means for V rotating said spindle, and a power feed drive for said ram including a screw extending parallel to said ram and rotatably anchored in said casing, a guide-rigidly mounted on said ram for movend a power feed drive for ment therewith, a nut slidably confined in said guide for movement into and, outof driving engagement with said screw, a rock shaft journaled in said casing and extending parallel to said screw, means splined to said rock shaft and operable thereby to efiect movement of said nut into or out of engagement with said screw, and limit means operable to drop said nut out of engagement with said screw at predetermined points in K rotating said spindle, two parallel drives adapted for connection selectively to said ram to reciprocate the latter and each including a separable connection, an actuator including a clutch for opening and closing the connection for one of said drives, an actuator including a clutch for opening and closing the other of said drives, a rock shaft axially movable in said casing to close one or the other of said clutches selectively and adapted to be rocked to open or close one or the other of said connections, and interlock means for preventing axial movement of said rock shaft when either of said connections is closed.

19. A spindle headstock comprising, in combination, a casing, a feed ram mounted in said casing for longitudinal movement, a spindle journaled in said ram for axial movement therewith, means for rotating said spindle, two parallel drives adapted for connection selectively to said ram to reciprocate the latter and each including a .separable connction,'an actuator including a clutch for opening and closing the connections for one of said drives, an actuator including a clutch for opening and closing the other of said drives, a

rock shaft axially movable when in a neutral position to close one or the other of said clutches selectively and adapted to be rocked out of said neutral position to closeone or the other of said connections, and interlock means for preventing axial movement of said rock shaft except when in said neutral position.

20. A spindle headstock comprising, in combination, a casing, a feed ram slidably and nonrotatably mounted in said casing, a spindle journaled in said ram for movement therewith, means for rotating said spindle, a drive including a feed screw extending parallel to said ram and rotatably anchored in said casing, a bracket connected rigidly to said ram for movement therewith, a nut adjustably confined on said bracket formovement into and out of driving engagement with.

said screw, a gear journaled in said bracket in mesh with said screw and adapted to roll 'along said screw upon axial movement of said ram, a dial rotatably mounted in a stationary position on said casing, and gear drive means connecting said dial to said gear for synchronous rotation;

21. A spindle headstock comprising, in com bination, a casing, a ram slidably mounted in said casing, a spindle journaled in said ram for.

movement therewith, means for rotating said spindle, a drive for traversing said ram in timed relation to the spindle rotation and including a feed screw extending parallel to said ram and rotatably anchored in said casing, a bracket connected rigidly to said ram for movement therewith, a nut adjustably confined on said bracket for movement into and out of driving engagement with said screw, a gear journaled in said bracket in mesh with said screw and adapted to roll along said screw upon axial movement of said ram, and

a block slidable longitudinally in said ram, a spinadjusting said clutch member.

an indicator connected to said gear for adjustment in timed relation to the rotation of said gear.

22. A spindle headstock comprising, in combination, a casing, a feed,ram slidably and nonrotatably mounted in said casing, a spindle journaled in said ram for movement therewith, means for rotating said spindle, drive means including a screw extending parallel to said ram and rotat-' ably journaled in said casing, a bracket mounted on said ram, a nut mounted in said bracket for movement with said ram and. for adjustment into and out of driving engagement with said screw, and means for indicating the position of rotation of said screw relative to said nut.

1 23. A spindle headstock comprising, in combination, a casing, a hollow tubular ram mounted for sliding movement in said casing, and formed internally with a longitudinal series of rack teeth,

dle extending through said ,ramaand journaled in said block, a clutch member mounted in said blockfor adjustment into and out of engagement with said. rack teeth, and meansavailable at will for 24; A spindle headstock comprising, in combination, a casing, a hollow ram mounted for sliding movement in said casing, a block slidable longitudinally in said ram, a spindle extending through said ram and journaled in said block, I clutch means for connecting said block to said ram in different selectivepositions of relative longitudinal adjustment, and means available at will and extending externally of said ram for adjusting said clutch means. g,

KEITH F. GALLIMORE. GARNER H. SCHURGER. 

